Global dynamics for an SVEIR epidemic model with diffusion and nonlinear incidence rate
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Publication:2098275
DOI10.1186/s13661-022-01660-8zbMath1505.92243OpenAlexW4307560957MaRDI QIDQ2098275
Publication date: 17 November 2022
Published in: Boundary Value Problems (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1186/s13661-022-01660-8
Epidemiology (92D30) Stability in context of PDEs (35B35) Reaction-diffusion equations (35K57) Medical epidemiology (92C60)
Cites Work
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- A nonlocal spatial model for Lyme disease
- Global well-posedness and asymptotic behavior of solutions to a reaction-convection-diffusion cholera epidemic model
- Global stability and uniform persistence of the reaction-convection-diffusion cholera epidemic model
- Threshold dynamics of an infective disease model with a fixed latent period and non-local infections
- Convergence results and a Poincaré-Bendixson trichotomy for asymptotically autonomous differential equations
- A qualitative study of a vaccination model with non-linear incidence
- Stability and traveling waves of a vaccination model with nonlinear incidence
- Global analysis of SIS epidemic models with variable total population size
- SVIR epidemic models with vaccination strategies
- Theory and applications of partial functional differential equations
- Robust persistence for semidynamical systems.
- Modelling and assessing the effects of medical resources on transmission of novel coronavirus (COVID-19) in Wuhan, China
- Effects of media reporting on mitigating spread of COVID-19 in the early phase of the outbreak
- Dynamics of an SEIR model with infectivity in incubation period and homestead-isolation on the susceptible
- Abstract Functional Differential Equations and Reaction-Diffusion Systems
- TWO DIFFERENT VACCINATION STRATEGIES IN AN SIR EPIDEMIC MODEL WITH SATURATED INFECTIOUS FORCE
- Basic Reproduction Numbers for Reaction-Diffusion Epidemic Models
- Global analysis of a diffusive viral model with cell‐to‐cell infection and incubation period
